Acute limb ischaemia
Acute limb ischaemia | |
---|---|
Other names | Acute limb ischemia |
Acute embolism to the right femoral artery resulting in ischemia | |
Symptoms | Cold, painful, pulseless limb that cannot move |
Causes | Embolism, thrombosis |
Treatment | Thrombectomy, embolectomy, thrombolysis |
Medication | Thrombolytic drugs |
Acute limb ischaemia (ALI) occurs when there is a sudden lack of blood flow to a limb,[1] within 14 days of symptoms onset.[2] On the other hand, when the symptoms exceed 14 days[3], it is called chronic limb ischemia (CLI). CLI is the end stage of peripheral vascular disease where there is still some collateral circulation (alternate circulation pathways) that bring some blood flow (although inadequate) to the distal parts of the limbs.[2] While limbs in both acute and chronic limb ischemia may be pulseless, a chronically ischemic limb is typically warm and pink due to a well-developed collateral artery network and does not need emergency intervention to avoid limb loss, whereas ALI is a vascular emergency.[4]
Acute limb ischaemia is usually caused by embolism or thrombosis, or rarely by dissection or trauma.[5] Thrombosis is usually caused by peripheral vascular disease (atherosclerotic disease that leads to blood vessel blockage), while an embolism is usually of cardiac origin.[6] In the United States, ALI is estimated to occur in 14 out of every 100,000 people per year.[7] With proper surgical care, acute limb ischaemia is a highly treatable condition; however, delayed treatment (beyond 6 to 12 hours) can result in permanent disability, amputation, and/or death. Early detection and steps towards fixing the problem with limb-sparing techniques can salvage the limb. Compartment syndrome may also occur in acute limb ischaemia because of the biotoxins that accumulate distal to the occlusion resulting in edema.[1]
The New Latin term ischaemia as written, is a British version of the word ischemia, and stems from the Greek terms ischein 'to hold'; and haima 'blood'.[8] In this sense, ischaemia refers to the inhibition of blood flow to/through the limb.
Signs and symptoms
[edit]Symptoms of acute limb ischemia can occur anywhere from minutes to days.[2]
The classic symptoms of acute limb ischaemia include:
- Pain
- Pallor (pale appearance of the limb)
- Paresthesias (abnormal sensations in the limb)
- Poikilothermia (inability to maintain a constant core body temperature)
- Pulselessness
- Paralysis
These symptoms are called "the six P's'";[9][10][11] they are commonly mis-attributed to compartment syndrome.
Symptoms may also include intermittent claudication or pain at rest. In late stages, paresthesia is replaced by anesthesia (numbness) due to death of nerve cells.[12] In severe cases, gangrene can occur suddenly and spread rapidly,[13] and should be treated within six hours of ischaemia.[14]
Embolic occlusions should be considered when patients present with a sudden and severe onset. Acute arterial occlusions may also lead to arterial spasms, causing a "marble" white appearance.[2] Patients who have an embolic cause of ALI often present with unilateral decreased pulses, whereas those with a thrombotic cause of ALI such as atherosclerosis often present with bilateral decreased pulses.[2]
Causes
[edit]Most acute limb ischemia is caused by thrombosis (40% of the cases), embolism (30%), vascular graft thrombosis (20%), thrombosis by popliteal artery aneurysm (5%), and major trauma (5%).[2]
Risk Factors
[edit]Risk factors include history of diabetes, coronary artery disease, tobacco use, atrial fibrillation, hypercoagulable disorders, autoimmune diseases, or diseases affecting connective tissues, such as Ehlers-Danlos syndrome.[15] In a patient with otherwise no known risk factors, atrial fibrillation with embolism should be suspected.[15]
Thrombosis
[edit]Thrombosis occurs when a blood clot forms within an artery, which can result from atherosclerosis or a hypercoagulable state.[16] This leads to an occlusion of the artery and thus ischemia. Unlike embolic causes of limb ischemia, thrombosis is progressive and develops over time. In hypercoagulable states, thrombosis can occur in areas without atherosclerosis, and usually presents in patients with malignancy, hyperviscosity, or low blood flow.[16]
Embolism
[edit]Common sources of emboli leading to arterial occlusions include mural thrombi from the heart or debris from the proximal aorta. As the emboli travel through the peripheral arteries, which are more narrow, the risk of occlusion increases.[16] The arteries most commonly affected by emboli include the common femoral, common iliac, and popliteal artery bifurcations.[17]
Vascular graft thrombosis
[edit]Thromboses as a result of cardiac interventions has become increasingly common. Clots may form at the sheath or catheter tip, potentially causing embolism during sheath removal.
Aneurysm
[edit]Thromboses forming within aneurysms are most frequently seen in the popliteal artery. Acute limb ischemia due to a popliteal artery aneurysm has been reported to have a 20-60% chance of limb loss and 12% mortality rate.[18]
Trauma
[edit]Acute limb ischemia may also be caused by traumatic disruption of blood flow to a limb, which may present with either hard signs or soft signs of vascular injury.[16] Hard signs include pulsatile bleeding, expanding hematoma, or absent distal pulses, and must be taken to surgery emergently. Soft signs include reduced pulses or nerve damage.[16]
Diagnosis
[edit]Once signs and symptoms of acute limb ischemia are identified, the cause and location of the occlusion and its severity need to be addressed. A clinical pulse examination can be done to detect the location of the occlusion by finding the area where the pulse is detected until the area where the pulse disappears. The skin temperature would also be colder in the pulseless area compared to the areas where the pulses are present.[1]
A Doppler evaluation is often the first imaging choice to diagnose ALI because it is inexpensive, accessible, non-invasive, and can be done in a short amount of time.[2] It is used to show the extent and severity of the ischaemia by showing flow in smaller arteries. An occlusion of the artery would be seen by decreased or absent flow distal to the occlusion. Doppler ultrasound can even distinguish between embolic and thrombotic plaque. The former would show a delineated, round thrombus, whereas the latter would show narrowed arterial lumen with atherosclerotic plaque.[2]
Although Doppler ultrasounds provide excellent information, there may be difficulty in evaluating aortic or iliac arteries in patients who are obese or have significant gas.[2] Other diagnostical tools are duplex ultrasonography, computed tomography angiography (CTA), and magnetic resonance angiography (MRA). The CTA and MRA provide higher-resolution images used in planning revascularization, but they may only be used in patients without a threatened limb. CTA uses raadiation and may not pick up on vessels for revascularization that are distal to the occlusion, but it is much quicker than MRA.[1] In treating acute limb ischaemia, timing is everything.[19]
Patients with clinical suspicion of ALI should also receive a chest X-ray and echocardiogram to evaluate for cardiac embolism, cardiac thrombus, myocardial infarction, and cardiac function.[2]
Prevention
[edit]The primary prevention of acute limb ischemia starts with awareness of peripheral artery disease (PAD). In patients with PAD, smoking cessation, weight control, blood pressure control, diabetes control, physical activity, and rhythm control in those with atrial fibrillation should be encouraged.[20] Medical therapy such as antihypertensives, lipid-lowering therapy, antidiabetic therapy, and antithrombotics can be considered when lifestyle modifications are not enough. Antiplatelets are recommended with 1C level of evidence for patients with symptomatic PAD, with a preference of clopidogrel over aspirin.[20] The VIVA trial demonstrated a 7% reduction in mortality of using ankle-brachial index (ABI), blood pressure management, and ultrasonography for vascular disease screening.[20]
Treatment
[edit]Considerations in treatment
[edit]The best course of treatment varies from case to case. The physician must take into account the details in the case before deciding on the appropriate treatment. No treatment is effective for every patient.[12]
Treatment depends on many factors, including:
- Type of occlusion
- Location of lesions
- Anatomy of lesions
- Individual risk factors
- Procedural risk
- Clinical presentation of symptoms
- Duration of symptoms
- etc.[21]
Surgery
[edit]The primary surgical intervention in acute limb ischaemia is emergency embolectomy using a Fogarty Catheter, providing the limb is still viable within the 4-6h timeframe.[22] Other options include a vascular bypass to route blood flow around the clot.[23]
Medications
[edit]Those unsuitable for surgery may receive thrombolytics. Initial anticoagulation with heparin may be recommended to prevent further development of the clot and help reduce ischemia.[1] In the past, streptokinase was the main thrombolytic chemical. More recently, drugs such as tissue plasminogen activator, urokinase, and anistreplase have been used in their place. Mechanical methods of injecting the thrombolytic compounds have improved with the introduction of pulsed spray catheters—which allow for a greater opportunity for patients to avoid surgery.[21][24] Pharmacological thrombolysis requires a catheter to be inserted into the affected area, attached to the catheter is often a wire with holes to allow for a wider dispersal area of the thrombolytic agent. These agents lyse the ischemia-causing thrombus quickly and effectively.[25] However, the efficacy of thrombolytic treatment is limited by hemorrhagic complications. Plasma fibrinogen level has been proposed as a predictor of these hemorrhagic complications. However, based on a systematic review of the available literature until January 2016, the predictive value of plasma is unproven.[26]
Mechanical thrombolysis
[edit]Another type of thrombolysis disrupts the clot mechanically using either saline jets or, more recently, ultrasound waves. Saline jets dislodge the clot using the Bernoulli effect. Ultrasound waves, emitted at low frequency, create a physical fragmentation of the thrombus.[27]
Prognosis
[edit]There is a high risk of mortality and cardiovascular events in those with limb ischemia. At one year, around 20-25% will die and 25-30% will need major amputation.[28]
Epidemiology
[edit]The major cause of acute limb ischaemia is arterial embolism (80%), while arterial thrombosis is responsible for 20% of cases. In rare instances, arterial aneurysm of the popliteal artery has been found to create a blood clot or embolism resulting in ischaemia.[29]
References
[edit]- ^ a b c d e Walker T. Gregory (2009). "Acute Limb Ischemia". Techniques in Vascular and Interventional Radiology. 12 (2): 117–129. doi:10.1053/j.tvir.2009.08.005. PMID 19853229.
- ^ a b c d e f g h i j Olinic DM, Stanek A, Tătaru DA, Homorodean C, Olinic M (August 2019). "Acute Limb Ischemia: An Update on Diagnosis and Management". Journal of Clinical Medicine. 8 (8): 1215. doi:10.3390/jcm8081215. PMC 6723825. PMID 31416204.
- ^ Fabiani I, Calogero E, Pugliese NR, Di Stefano R, Nicastro I, Buttitta F, Nuti M, Violo C, Giannini D, Morgantini A, Conte L, Barletta V, Berchiolli R, Adami D, Ferrari M, Di Bello V (July 2018). "Critical Limb Ischemia: A Practical Up-To-Date Review". Angiology. 69 (6): 465–474. doi:10.1177/0003319717739387. PMID 29161885. S2CID 22281024.
- ^ Farber, A (12 July 2018). "Chronic Limb-Threatening Ischemia". The New England Journal of Medicine. 379 (2): 171–180. doi:10.1056/NEJMcp1709326. PMID 29996085. S2CID 51623293.
- ^ Creager, Mark A.; Kaufman, John A.; Conte, Michael S. (2012). "Acute Limb Ischemia". New England Journal of Medicine. 366 (23): 2198–2206. doi:10.1056/NEJMcp1006054. PMID 22670905.
- ^ Klonaris, C; Georgopoulos, S; Katsargyris, A; Tsekouras, N; Bakoyiannis, C; Giannopoulos, A; Bastounis, E (March 2007). "Changing patterns in the etiology of acute lower limb ischemia". International Angiology. 26 (1): 49–52. PMID 17353888.
- ^ Dormandy J, Heeck L, Vig S (June 1999). "Acute limb ischemia". Semin Vasc Surg. 12 (2): 148–53. PMID 10777242.
- ^ "Ischaemia." Merriam-Webster. Last modified 2012. http://www.merriam-webster.com/dictionary/ischemia?show=0&t=1334804041
- ^ Brearley, S (May 8, 2013). "Acute leg ischaemia". BMJ (Clinical Research Ed.). 346: f2681. doi:10.1136/bmj.f2681. PMID 23657181. S2CID 33617691.
- ^ "CKS is only available in the UK". NICE. Retrieved 2020-10-15.
- ^ "Acute Limb Ischaemia - Clinical Features - Management". TeachMeSurgery. Retrieved 2020-10-15.
- ^ a b Obara, H.; Matsubara, K.; Kitagawa, Y. (25 December 2018). "Acute Limb Ischemia". Annals of Vascular Diseases. 11 (4): S5–S67443–448. doi:10.3400/avd.ra.18-00074. PMC 6326052. PMID 30636997.
- ^ Norgren, L.; Hiatt, W.R.; Dormandy, J.A.; Harris, K.A.; Fowkes, F.G.R. (1 January 2007). "Inter-Society Consensus for the Management of Peripheral Arterial Disease (TASC II)". Journal of Vascular Surgery. 45 (1): S5–S67. doi:10.1016/j.jvs.2006.12.037. PMID 17223489. Retrieved June 25, 2021.
- ^ "Acute Limb Ischemia". The Lecturio Medical Concept Library. Retrieved 2021-06-25.
- ^ a b Gilliland, Charles; Shah, Jay; Martin, Jonathan G.; Miller, Michael J. (December 2017). "Acute Limb Ischemia". Techniques in Vascular and Interventional Radiology. 20 (4): 274–280. doi:10.1053/j.tvir.2017.10.008. PMID 29224661.
- ^ a b c d e McNally, Michael M.; Univers, Junior (October 2018). "Acute Limb Ischemia". Surgical Clinics of North America. 98 (5): 1081–1096. doi:10.1016/j.suc.2018.05.002. PMID 30243449.
- ^ Abbott, William M.; Maloney, Randolph D.; McCabe, Charles C.; Lee, Christine E.; Wirthlin, Leroy S. (April 1982). "Arterial embolism: A 44 year perspective". The American Journal of Surgery. 143 (4): 460–464. doi:10.1016/0002-9610(82)90196-9. PMID 7072911.
- ^ Walker, T. Gregory (June 2009). "Acute Limb Ischemia". Techniques in Vascular and Interventional Radiology. 12 (2): 117–129. doi:10.1053/j.tvir.2009.08.005. PMID 19853229.
- ^ Fluck, F.; Augustin, A.M.; Augustin, T.; Kickuth, R (April 2020). "Current Treatment Options in Acute Limb Ischemia". RöFo. 192 (4): 319–326. doi:10.1055/a-0998-4204. PMID 31461761.
- ^ a b c Enea, Iolanda; Martelli, Eugenio (January 2023). "Focus on the Prevention of Acute Limb Ischemia: Centrality of the General Practitioner from the Point of View of the Internist". Journal of Clinical Medicine. 12 (11): 3652. doi:10.3390/jcm12113652. ISSN 2077-0383. PMC 10254060. PMID 37297848.
- ^ a b Andaz S.; Shields D.A.; Scurr J.H.; Smith P.D. Coleridge (1993). "Thrombolysis in acute lower limb ischaemia". European Journal of Vascular Surgery. 7 (6): 595–603. doi:10.1016/S0950-821X(05)80702-9. PMID 8270059.
- ^ Goldberg, Andrew (2012). Surgical Talk: Lecture Notes in Undergraduate Surgery. Imperial College Press. p. 234. ISBN 978-1-84816-6141.
- ^ Bowley, Douglas, and Andrew Kingsnorth, eds. Fundamentals of Surgical Practice: A Preparation Guide for the Intercollegiate Mrcs Examination. 3rd ed. N.p.: Cambridge University Press, 2011. 506-11. Web. 20 Apr. 2012.
- ^ ABC of Arterial and Venous Disease: Acute Limb Ischaemia Ken Callum and Andrew Bradbury BMJ: British Medical Journal, Vol. 320, No. 7237 (Mar. 18, 2000), pp. 764-767
- ^ Wardlaw J.M.; Warlow C.P. (1992). "Thrombolysis in acute ischemic stroke: does it work?". Stroke. 23 (12): 1826–1839. doi:10.1161/01.str.23.12.1826. PMID 1448835.
- ^ Poorthuis, Michiel H. F.; Brand, Eelco C.; Hazenberg, Constantijn E. V. B.; Schutgens, Roger E. G.; Westerink, Jan; Moll, Frans L.; de Borst, Gert J. (2017-03-05). "Plasma fibrinogen level as a potential predictor of hemorrhagic complications after catheter-directed thrombolysis for peripheral arterial occlusions". Journal of Vascular Surgery. 65 (5): 1519–1527.e26. doi:10.1016/j.jvs.2016.11.025. ISSN 1097-6809. PMID 28274749.
- ^ Sean P. Lyden, Endovascular Treatment of Acute Limb Ischemia: Review of Current Plasminogen Activators and Mechanical Thrombectomy Devices PERSPECT VASC SURG ENDOVASC THER December 2010 22: 219-222, first published on March 16, 2011
- ^ Norgren, L.; Hiatt, W.R.; Dormandy, J.A.; Nehler, M.R.; Harris, K.A.; Fowkes, F.G.R. (January 2007). "Inter-Society Consensus for the Management of Peripheral Arterial Disease (TASC II)". Journal of Vascular Surgery. 45 (1): S5–S67. doi:10.1016/j.jvs.2006.12.037. PMID 17223489.
- ^ Mitchell ME, Carpenter JP. Overview of acute arterial occlusion of the extremities (acute limb ischemia). In: Post TW, ed. UpToDate. Waltham, MA: UpToDate. https://www.uptodate.com/contents/overview-of-acute-arterial-occlusion-of-the-extremities-acute-limb-ischemia?source=search_result&search=Classification%20of%20acute%20extremity%20ischemia&selectedTitle=1~90#H506059593. Last updated May 31, 2016. Accessed December 13, 2016.